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NIGEL, MARK SAMMES (Nigel Mark Sammes)
Div. of Advanced Nuclear Engineering(첨단원자력공학부)
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SOFC:22||PERFORMANCE:16||OXIDE FUELCELLS:12||solid oxide fuel cell:12||SYSTEM:11||ELECTROLYTES:11||ELECTRICALCONDUCTIVITY:9||ELECTRICALPROPERTIES:8||FABRICATION:8||Microtubular:7||ANODE:7||ceria:6||ELECTRODES:6||SIMULATION:6||OXIDE FUELCELL:6||ELECTROLYTE:6||STACK:6||STABILITY:5||MICROSTRUCTURE:5||CERIA:5||extrusion:5||thermal expansion:5||Raman spectroscopy:5||DESIGN:4||OXIDE:4||Xray diffraction:4||MODEL:4||SOFCS:4||FUELCELLS:4||solid oxide fuel cells:4||SYSTEMS:4||CATHODE:4||electrolyte:4||TRANSPORT:4||PEROVSKITE:4||fuel cells:4||NONSTOICHIOMETRY:3||CONDUCTIVITY:3||FUELCELL:3||METHANE:3||OXIDATION:3||perovskite:3||GAS:3||Perovskite:3||Electrochemical performance:3||SOLID ELECTROLYTE:3||fuel cell:3||tubular:3||lanthanum chromite:3||Anode:3||OXIDES:3||CRYSTALSTRUCTURE:3||bismuth oxide:3||CERAMICS:3||MECHANICALPROPERTIES:3||PEROVSKITETYPE OXIDE:3||XRAY:2||microtubular:2||electrochemical electrodes:2||DEPENDENCE:2||Electrolyte:2||ELECTROCHEMICAL PERFORMANCE:2||MN:2||PHASESTABILITY:2||bismuth lead oxide:2||BEHAVIOR:2||KINETICS:2||Cathode materials:2||computational modelling:2||ionic conductivity:2||DOPED CERIA:2||separator:2||CA:2||carbon aerogel:2||LAYER:2||NASICON:2||ELECTROCHEMICAL PROPERTIES:2||PAFC:2||ACTIVATION:2||Ceramic interconnect:2||THERMOELECTRIC PROPERTIES:2||MOLECULARSTRUCTURE:2||BI8PB5O17:2||ZIRCONIA:2||SPECTRA:2||INTERMEDIATE TEMPERATURE:2||CARBON NANOTUBES:2||SOFC SYSTEM:2||SRTIO3:2||METHANOL:2||sintering characteristics:2||electrical conductivity:2||modeling:2||anode:2||SINTERED OXIDES:2||CATALYSTS:2||TECHNOLOGIES:2||GLASSCERAMICS:2||Flat tubular solid oxide fuel cells:2||YTTRIUM CHROMITES:2||Misfit structure:2||sintering:2||numerical simulation:2||PHASETRANSITION:2||FE:2||LA1XSRXCO1YFEYO3:2||microSOFC:2||zirconia:2||butane:2||fabrication:2||SOFC systems:2||Solid oxide fuel cells (SOFCs):2||cathode:2||mechanical properties:2||LAGAO3:2||synthesis:2||ITSOFC:2||Screen printing:2||Anode supported:2||STRONTIUMTITANATE:2||PARAMETERS:2||Electrical conductivity:2||CA3CO4O9:2||current collection:2||OPERATION:2||AMMONIA:1||powder Xray diffraction:1||phase equilibria:1||phase composition:1||bismuth vanadium oxide:1||CRYSTALS:1||microtubular cells:1||prereforming:1||LANTHANUM GALLATE:1||ION CONDUCTOR:1||YSZ:1||THERMALEXPANSION:1||PEROVSKITELIKE COMPOUNDS:1||TRANSITIONS:1||screenprinting:1||systemlevel modeling:1||MATHEMATICALMODEL:1||lithiumiron and lithiumnickel phosphates:1||DISORDER:1||mechanical strength:1||CeO2:1||ceramics:1||CERATE PEROVSKITES:1||NONSTOICHIOMETRIC CERIA:1||POWERPLANT:1||Pt:1||dynamic modeling:1||heat transfer:1||LA0.9SR0.1GA0.8MG0.2O2.85:1||anodesupport:1||BISMUTH OXIDE:1||reaction:1||DEGRADATION:1||gadolinium compounds:1||cermets:1||OXYGEN REDUCTION:1||ALLOY:1||CFD:1||FUEL:1||THINFILMS:1||Tape casting:1||Porosity gradient:1||morphology:1||particle size:1||NICKEL PARTICLES:1||dip coating:1||red PbOtype structure:1||Performance control:1||EFFECTIVE ELASTICMODULI:1||Glass ceramics:1||Solidoxide fuel cell:1||Degradation:1||CONVERSION:1||Ionic conductivity:1||LANTHANUM COBALTITE:1||NDGAO3:1||residential:1||localised power generation:1||system modelling:1||RAMAN SPECTRAL CHARACTERIZATION:1||CONDUCTIVITY MEASUREMENTS:1||REDUCING ATMOSPHERES:1||YSZ CERMET:1||PEROVSKITES:1||phase transition:1||ELECTROCATALYSTS:1||POWDER NEUTRONDIFFRACTION:1||COMPUTATIONAL SIMULATIONS:1||HYBRID SYSTEM:1||tape casting:1||TECHNOLOGY:1||thin conducting inclusion:1||Anodesupport:1||LSGM:1||mortar:1||PLATINUM:1||DIFFUSION:1||CHEMICALSTABILITY:1||Catalysts:1||OXYGEN REDUCTION CATALYSTS:1||SOLIDSOLUTION:1||Thermal stress:1||PLANAR SOFC:1||AQUEOUSELECTROLYTE:1||INTERMEDIATETEMPERATURE:1||HETEROGENEOUS SOLIDS:1||COMBUSTION:1||stability:1||fast ion conductor:1||RAMAN:1||internal manifolding:1||flow distribution:1||gasflow distribution:1||market:1||cerium oxide:1||IONIC ELECTRONIC CONDUCTION:1||ZRO2GD2O3:1||EXPANSION:1||electric current collector:1||pore size distribution:1||PEM fuel cell:1||yttria stabilisedzirconia:1||CEO2 SINGLECRYSTALS:1||DEFECT STRUCTURE:1||GASDIFFUSION ELECTRODES:1||proton exchange membrane fuel cells:1||SINGLECRYSTAL ALPHABI2O3:1||Burst test:1||PHASE:1||nickel compounds:1||Anodesupported planar solid oxide fuel cell:1||strength:1||Carbon:1||Polymer electrolyte membrane fuel cell (PEMFC):1||polymorphs:1||lone pair of electrons:1||Cathodesupport:1||Metal air battery:1||Performance:1||Alkaline solution:1||Longterm stability:1||ZIRCONATE:1||Fuel mixtures:1||NITRATE:1||CATALYTIC ACTIVITY:1||ION CONDUCTION:1||OXYGEN ION CONDUCTOR:1||SPECTROSCOPY:1||leisure application:1||mathcad:1||electric vehicles:1||gadolinium titanate:1||lanthanum manganite:1||DOPED LANTHANUM MANGANITE:1||lattice parameters:1||MEA manufacturing:1||lumpedparameter model:1||CONDUCTION:1||LAGAO3 PEROVSKITE:1||Xray methods:1||SCATTERING:1||protonic conductors:1||BACEO3:1||BI2O3Y2O3 OXYGEN CONDUCTOR:1||numerical simulations:1||mass transfer:1||DOPED LANTHANUM GALLATE:1||pyrolysis:1||scanning electron microscopy:1||gas diffusion medium:1||TUBULAR SOFC:1||STACKS:1||TUBULAR SOFCS:1||Leakage currents:1||aerogelsupported catalyst:1||antialphaAgItype structure:1||triclinic:1||Composite:1||RESIDUALSTRESS:1||POROSITY:1||Lithium/air battery:1||Anode support:1||MicroSOFC:1||MICROSOFCS:1||Anodesupported electrolyte:1||Intermediate temperaturesolid oxide fuel cells (ITSOFCs):1||SOLID OXIDE FUEL:1||PLATE:1||heat treatment:1||pressure drop:1||stack:1||ceria/yttria stabilized zirconia:1||solid electrolytes:1||bismuth phosphorus oxide:1||lanthanum chromites:1||COEFFICIENT:1||crystal structure:1||cermet:1||SAMARIUM:1||POLYMERELECTROLYTE:1||titanium doping:1||FEATURES:1||compatibility:1||phase diagram:1||substoichiometric materials:1||CONDUCTORS:1||ANOMALOUS CONDUCTIVITY:1||BIMEVOX SERIES:1||optimization:1||GASTURBINE:1||German installations:1||scandia stabilized zirconia:1||RAMANSPECTRA:1||solid oxide fuel cell (SOFC):1||charge distribution:1||GAS SEPARATION:1||ScSZ:1||electrolytes:1||lanthanum compounds:1||PARTIAL OXIDATION:1||STRONTIUM CERATE:1||MEMBRANE REACTOR:1||FUELCELL PERFORMANCE:1||Solid oxide fuel cell:1||PYROLYSIS:1||anode supported:1||PhiBi8Pb5O17:1||powder xray diffraction:1||phase identification:1||POWDERS:1||gadolinium manganite:1||Anode microstructure:1||Acetic acid:1||TRANSPORTPROPERTIES:1||Carbon deposition:1||Extrusion:1||Thin film electrolyte:1||Mechanical property:1||OXYGEN ION:1||CO:1||BISMUTHLEAD OXIDE:1||RAMAN SPECTROSCOPY:1||cathodic polarization:1||CELLS:1||gadolinium cobaltite:1||YTTRIA:1||XRAYDIFFRACTION:1||forecast:1||combustion catalyst:1||interconnect:1||Pechini method:1||nonstoichiometry:1||ZIRCONIATITANIA:1||ZRO2TIO2:1||infrared spectroscopy:1||RAREEARTH PEROVSKITES:1||property:1||HIGHTEMPERATURES:1||mixed ionic and electronic conductor:1||HIGHPERFORMANCE ELECTRODE:1||OXYGENION CONDUCTIVITY:1||SOLID ELECTROLYTES:1||economic:1||transmission electron microscopy:1||thin film electrolyte:1||heterogeneous structure:1||LSCM:1||characterization:1||waste management:1||MIXED CONDUCTOR:1||doping:1||Dusty gas model:1||PEMFC:1||ELECTROLYTE FUELCELLS:1||Bi5Pb3O10.5:1||cobaltite:1||THINFILM:1||Ceriabased electrolyte:1||AIR SECONDARY BATTERIES:1||Solid electrolyte:1||Microtubular SOFC:1||SOLIDSTATE:1||Bi1.78Ca2Co1.63O6.65 cathode materials:1||CELL:1||FARADAIC ELECTROCHEMICAL MODIFICATION:1||LANTHANUM CHROMITE:1||ion conduction:1||SUPERIONIC CONDUCTORS:1||BI2O3:1||FRACTURETOUGHNESS:1||antimony oxide:1||bismuth tungsten oxide:1||PEROVSKITE STRUCTURE:1||LANTHANUM CHROMITES:1||microstructurefinal:1||DOMAINSTRUCTURE:1||ZrO2:1||composite:1||design:1||control volume approach:1||superconductivity:1||oxygen ion conductivity:1||perovskites:1||anaerobic digester gas:1||LANDFILL GAS:1||SOFCstack:1||electrochemical impedance spectroscopy:1||strontium compounds:1||WATER:1||Parametric analysis:1||POWER:1||PROTONIC CONDUCTION:1||SUPPORT:1||Oxygen reduction:1||POLYCRYSTALLINE REFRACTORY MATERIALS:1||PROBABILITY:1||Catalytic layer:1||Solid oxide fuel cell (SOFC):1||Lithium:1||Secondary battery:1||Thermal expansion coefficient (TEC):1||RAMANSPECTROSCOPY:1||overpotential:1||STABILIZED ZIRCONIA:1||(CeO2)(1x)(GdO1.5)(x) electrolytes:1||INDENTATION TOUGHNESS:1||hydraulic model:1||microhybrid vehicle:1||combined heat and power:1||resistivity:1||LaGaO3:1||(LA,CA)(CR,CO)O3:1||FLUORITETYPE:1||ELASTIC PROPERTIES:1||lanthanum gallate:1||REACTOR:1||aerogel supported catalyst:1||PEMFCs:1||transient dynamics:1||electron microscopy:1||sensors:1||SUBSTITUTED BI4V2O11:1||SOLIDPHASE SYNTHESIS:1||systems:1||OPTIMIZATION:1||cofiring:1||anodesupported electrolyte:1||VAPORDEPOSITION:1||MEMBRANES:1||Strength:1||Ceria:1||heavy metals:1||ANODESUPPORTED SOFC:1||500DEGREESC:1||COMBINED HEAT:1||Yttria stabilized zirconia:1||Niyttria stabilized zirconia:1||redox:1||Aerogel:1||vacuum infiltration:1||THICKNESS:1||COMPOSITE:1||PROTON CONDUCTING CERAMICS:1||TEMPERATURE:1||SYNTHESIS GAS:1||MOLYBDENUM:1||
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